The JRC project Innovative seismic and energy retrofitting of the existing building stock (iRESIST+) , together with the H2020-MSCA-IF projectsNOvel TImber Composites for Energy and Seismic Upgrading of Buildings (NOTICE-EUB) and Smart Textiles for RETrofitting and monitoring of Cultural Heritage buildings (STRETCH), seek to come up with strategies to increase renovation uptake in the EU. The overarching objective of the research is to develop innovative technological solutions tackling the poor seismic and energy performance of existing building stock simultaneously.
An international joint research collaboration between JRC and the Korea Construction Engineering Development Collaboratory Management Institute (KOCED...
The 'NOvel TImber Composites for Energy and Seismic Upgrading of Buildings' project provides a sustainable solution for reducing seismic risks and improving energy efficiency in European buildings.
PINN FLOED aims to harness the potential of data-driven machine learning approaches to provide foresight on the effect of building renovation.
REUSE is an exploratory research project that aims to develop novel re-usable panels and innovative modular construction techniques that will contribute to the decarbonisation of the European building stock.
RoBUILT is an Exploratory Research project aiming to revolutionise the renovation of existing buildings by using innovative robotics and automated systems.
The aim of the STRETCH project is to develop a hybrid structural-plus-energy retrofitting together with structural health monitoring tailored for...
The iRESIST+ research project looks into a novel combined seismic and energy retrofitting scheme that combines inorganic textile-based composites with...